Mathworks Inc. / OsiriX Imaging Software / GE / Siemens / /
Country
Germany / Guinea / /
Currency
pence / / /
Facility
University of Virginia / American College of Sports Medicine / College Scientists Foundation / American College / American College of Sports Medicine DOI / University of Wisconsin / /
IndustryTerm
strain-energy density function / magnetic resonance imaging / chemical shift artifact / computed muscle control algorithm / clinical and magnetic resonance imaging findings / imaging / axial imaging plane / energy / exercise device / /
Organization
Department of Mechanical and Aerospace Engineering / University of Virginia / Department of Biomedical Engineering / the American College / College Scientists Foundation / University of Wisconsin / /
Person
Ann Biomed Eng / Christopher Herb / Silvia S. Blemker / Christopher Westphal / Natalie Kramer / Amy Silder / /
Position
Pinsky PM / Delp SL / Representative / quasiincompressible material model / Official Journal / /
ProvinceOrState
South Dakota / New Mexico / Wisconsin / Virginia / /
Technology
magnetic resonance imaging / computed muscle control algorithm / sports medicine / ultrasound / MTU / Simulation / MRI / /
Computational Models Predict Larger Muscle Tissue Strains at Faster Sprinting Speeds NICCOLO M. FIORENTINO1, MICHAEL R. REHORN2, ELIZABETH S. CHUMANOV3, DARRYL G. THELEN3,4, and SILVIA S. BLEMKER1,2 1